ILHAN ERTAN
ARCHITECTURAL PORTFOLIO
ILHAN ERTAN SELECTED WORKS 19 | 22
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ILHAN ERTAN ARCHITECT Based in Milan, Italy, I’m a Turkish graduate architect studying in MSc Building Architecture at Politecnico di Milano. In my studies, I’m focused on complex structures and their inherent relationship with the architectural, historical context and urban environments. I’m strongly interested in architecture’s ability to improve how we live and communities grow, as well as opening up new possibilities while respecting the urban context, even within the most restricted conditions. I enjoy speculating the given architectural conditions to provide additional quality to the built and natural environment.
Contact E: info@ilhanertan.com W: www.ilhanertan.com M: +393519214595 A: Via Romagna 62, MILANO, ITALY
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ILHAN ERTAN
TABLE OF CONTENTS
2022...............
Institut Polytechnique de Paris Centre for Research Excellence in Biomedical Engineering
2021.........................
Architectural Design Studio for Complex Constructions II Gif-sur-Yvettei, Métropole du Grand Paris, France
UHasselt - School of Business Economics (BEW) Architectural Design Studio for Complex Constructions I Hasselt, Limburg, Belgium
2020.......................................................................
PoliMi Startup Hub Architecture Construction Studio Milan, Lombardy, Italy
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...........................p.11
.........................................................................p.17
2019........................................................... FSP - Free Speech Platform Architectural Design Studio V Çanakkale, Turkey
.....................p.5
..............................................................p.23
IP Paris
Institut Polytechnique de Paris Centre for Research Excellence in Biomedical Engineering Master Degree Thesis (in progress) / 2022 Team: Ilhan Ertan, Ayagoz Gabdulina, Vanessa Fung Hing Wai Studio: Francesca Battisti, Grigor Angjleliu, Massimiliano Nastri, Francesco Romano, Giovanni Dotelli
Located in Paris Saclay, the project aims to stimulate innovation, discovery and entrepreneurship through the interaction and collaboration. The complex is envisioned as a flexible research hub for R&D and an accelerator of innovation that combines academic and corporate types. The building houses activities aimed at encouraging companies to test the results and product of advanced research in Biomedical Engineering field and promote their commercialization. As a part of larger, interactive and transformative masterplan that is designed for the Institut Polytechnique, the Center’s mission is to overcome the boundaries of conventional scientific research facilities by offering a wide range of lab types from wet biology, dry chemistry, computational science as well as quality office space, designed with advanced environmental sustainability and energy-efficient technologies. The accessibility and interactivity of these functions are reinforced by public uses like restaurant, multifunctional sports facilities and an event space that is connected to the main auditorium. The building offers 65.000 m2 closed public and private spaces. The structure is a combination of steel frame and reinforced concrete sheer walls. In the general conception of the structure, first floor slab and the floors below are supported by conventional steel frame construction while the upper floors are suspended by steel columns that are attached to the trusses located on the roof spanning the distance between the shear walls. This horizontal division of structural organization provides a floor where there are no columns (first floor). Thanks to this structural scheme, the first floor can accommodate all kinds of free public activity and modularity. There are also particular interventions to the main concept of structure such as the use of Vierendeel Trusses and larger section of beams.
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IP Paris
CHAIN OF SIGNIFICANT PLACES Elevated Footbridge
NODE 1. Connection to intermediate landscape, sport facilities and continuation of the “chain”.
NODE 2. Praire, a public square that is designed as the centerpiece of the new masterplan
NODE 3. An important connection to pedestrian bridge and public chain. Aviation tower and stadium as the main actors of the public space.
The end/beginning of the “chain of significant places”
Praire connects culture center, museum, company and academic research while integrating nature into the elevated footbridge. Continuation from the chain of significant places, footbridge connects Ecole Polytechnique, Startup Center & IP Paris
GREEN AXIS
Densified Greenery and Landscape
SEQUENCE OF PUBLIC ACTIVITY Transition Spaces
Open space along the pedestrian axis. A transition space between Engineering Building and the intermediate landscape
Urban Park hosting the main footbridge with pedestrian access on the ground
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A public space around the aviation tower. The tower as a landmark.
Integration of the footbridge and the stadium benefiting from the bleachers around the exiting track
IP Paris
MASTERPLAN Campus IP Paris
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IP Paris
PUBLIC PASSAGE SECTION
FIRST FLOOR CONFIGURATIONS
INTERSECTION OF LAYERS
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IP Paris
MESH FACADE SYSTEM
STRUCTURE
Suspended Floor System Steel Frame Trusses on the Roof
Steel Columns for Suspension
Reinforced Concrete
Reinforced Concrete
Shear Walls
Cores (8x16m)
GFRC CLADDED SHEAR WALL
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ILHAN ERTAN
UHasselt - School of Business Economics (BEW) Academic Work / 2021 Team: Ilhan Ertan, Simay Çag Studio: Francesca Battisti, Jo Coenen, Grigor Angjleliu, Massimiliano Nastri
The design of the Faculty of Business Economics (BEW) in Limburg’s capital Hasselt, integrated into Joe Coenen’s masterplan as an “urban device”, a strategic centrality for a deeper integration between UHasselt Campus and city, acting in both physical and cultural setting of the city and capable of shaping new urban environments and civic spaces. In order to revitalize the main square, Aldo Rossi’s original urban design idea that implements an urban ring and main square accompanied by a public building is reimagined. The complicate vehicle junction turned into a bus station and tranportation network rethought. The building acts as both a gateway and an edge on the approach to the campus, an institutional image of the university. This is an opportunity to provide additional and “unexpected generousity” towards people of Hasselt. Eventhough it was not included in the programme brief, a public piazza has been created in the heart of the project, by suspending the offices and meeting rooms using structural beams of 2.2m height. These fragmented administrative spaces allow natural light to illuminate the piazza while providing light for each office space. Classrooms and common areas with public functions such as restaurant and cafeteria surrounds the main piazza. The main auditorium rises from the ground providing an entrance from the street level and an elevated surface for public events in the piazza.
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Hasselt BEW
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Hasselt BEW
NEW MASTERPLAN
TRANSFORMATIONS IN FUTURE
TRANSFORMATIONS IN ACTION
TRANSFORMATIONS IN CENTER
GREEN CORRIDOR
ACCESS & RELATIONSHIP
ALLOCATION
SPATIAL CONTUNITY & ACCESSIBILITY
SITE PLAN
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Hasselt BEW
EAST ENTRANCE
WEST ENTRANCE
PUBLIC PLAZA
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Hasselt BEW
LONG SPAN BEAMS SUSPENSION COLUMNS
OFFICES
CLASSROOMS
PUBLIC PIAZZA
MAIN AUDITORIUM SKYLIGHT
DEAN’S OFFICE STUDENT COUNCELING
LECTURE HALL
WEST PASSAGE
IFESTO
F
GA
H
I
B
C
J
K
Z
L
M
N
1 UP
1
2
DN
Large Sanitary Unit
Server Room
Storage
3
UP
98 m²
2
111 m²
97 m²
3
DN
D
Counter & Workshop
Landscape Office 4
Individual Office
23 m²
23 m²
17 m²
Shower
Shower
20 m²
20 m²
4
UP
LECTURE HALL
4 A5
4
5
5 E
Storage 43 m²
WC 34 m²
6
6
Small Auditorium
DN
134 m²
WC 37 m²
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7 Hall
MANIFESTO 8 Main
34 m²
Restaurant Kitchen
Section
Workshop
Technical
45 m²
500 m²
154 m²
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8
9
Workshop 44 m² Main Auditorium
Storage 15 m²
373 m²
10
10
Office
UP
Office
Office
11
Office
Office
Office
Office
Office
Meeting Room
11
12
12
UP
13
Multipurpose Hall 211 m²
Office
UP
Office
Office
WC 27 m²
14 15
WC 13 m²
21 6 5 A5 B3 B4 C8
A
B
C
E F
D
G
H
I
J
K
Z
L
M
N
J
K
Z
L
M
N
Lecture Room
Coworking Space
vel -1 - Basement : 200
F
GA
H
B
C
1
2
DN
19 m²
DN
3
0.00 m
D DN
Flexible Workspace
Coffee Shop
203 m²
127 m²
4
DN UP
WC
WC
25 m²
23 m²
WC
Lecture Room
2
Storage
UP
3 UPDN
I
1
UP DN
4 A5
4
WC
8 m²
8 m²
5
5 E
Archive 70 m²
6
6 0.00 m
Classroom 90 148 m²
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Main Auditorium
Hall
8
7
Small Auditorium
8
Main Cafeteria 233 m²
DN
9
Classroom 90
Hall
136 m²
10
Main Auditorium Public Lobby 174 m²
11
UP
373 m²
0.00 m
9
148 m²
10
Bike Storage -2.30 m
WC
Carpark
21 m²
Student Lobby
154 m²
DN
11
3.14 m
12
DN
12
DN
WC 32 m²
0.00 m 0.00 m
13
UP
14
Storage 24 m²
15 21 6 5 A5 B3 B4 C8
A
vel 0 - Ground Floor : 200
B
C
D
E F
G
H
I
J
K
Z
L
M
N
13
2
1
6
7
8
A
3
2
9 9
A
4
3
10 10
Hasselt BEW
5
4
5
4
3
4
3
6
7
8
9
10
6
7
8
9
10
2
2
A
14
16 14
4
16
14
60
300
60
300
4
B4
B
4
21.90 m
Level 5 - Roof
B
21.90 m
m Level 21.00 5 - Roof
B3
410
50
83
410
113 47
113
C
480
81
480
81 882
CA2 CR1 B4 CR3
CC1 PB1
81
420
DR1
WM1
CR3
GR1
IN1
CR1
GR1
IN1
CR3
CR1
60
1892
100 60
40280
6060 60
40
E
AD1
578
578 578
DH1
1018
1000
DH1
AD1
AD1
DH1
AD1
253
SC1
DH1
B1 TR1
450
9.00 m
I
Section 1 - Detail 1 1 : 10
3 B4
J
CR3
FF1
CR1
CR2
CR3
FF1
2
50 292
135
792
556
IN2 CC1
792
556
M
50
66
B1
Executive Designer: Designer Technical Analysis: Section 1 - Detail 5 1 : 10 1 -Analysis: Technical Drawings: Section Detail 5 Technical
104
WM1 B1
54 50
3 3
1 : 50
2
Section 1 - Detail 2 7 1 : 10 1
7
8
1 2
2
9
3
3
10
4
9
8
1
4
5
4 5
6
5
6
7
6
7
7
8
9
J
K K
DR1
8
9
Day: 05/28/21 10
8
9
10 Day: 05/28/21
2
1
A5
A
Roof Drain
PVC
Dimension
Dimension 2000x900mm 900x300mm 2000x900mm 600x220mm 900x300mm 500x200mm 600x220mm 102.5x215x65mm 500x200mm 50x150mm 102.5x215x65mm 35x80 mm 50x150mm Varies 35x80 mm Varies Varies Varies Varies Varies Varies Varies Varies 200mm Varies 200mm
Prof. Massimiliano Nastri, T Architectural Design Studio Prof. Massimiliano Nastri, T Architectural Design Studio Executive Designer: Design
L
Executive Designer: Design Technical Analysis:
M
Technical Analysis:
Te
M
Te
Da N
B3 B3
3
4
5
Da
N
6
7
8
9
10
14
16 15
16
Material Steel Steel Steel Steel Steel Steel Steel Brick Steel Steel Brick Steel Steel R. Concrete Steel Concrete R. Concrete Concrete Concrete Concrete Concrete Aluminum Concrete PVC Aluminum
L
Title: Technical - Facade Section Details
10
10
14
4
2
3
A 4
3
B3
21.90 m
21.90 m
4 113
66
B4
66
B3
B
SB1
47
47
B
Level 5 - Roof
SB1
Level 5 - Roof 21.00 m
21.00 m 50
C
83
410
81
81
480
420
420
30
CC1 882
CA2
C
PB1 410
DR1
53
420
OB1 ST1
D
IN1
GR1
WM1
CR3
GR1
CR1
IN1
WM1
CR3
CR1
CR1 B4 CR3
21.00 m CA1
420
60 60 100
83
ST1
B3
40
40
50
60
2000
ST1
2
1892
60
60
17.00 m
60
280
100
Level 4 - Fourth Floor
100
D
E
GR1 WM1
70
17.00 m
280
820
IN1
21.00 m
21.00 m 143
Level 4 - Fourth Floor
E
1018
1000
F
300
300
SB1
DH1
F
Level 3 - Third Floor
13.00 m
AD1
450
389
DH1
300
AD1
578
DH1
DH1
13.00 m
450
AD1
B1
578
Level 3 - Third Floor
G
52
52
52
52
TR1
66
101
SC1
G
SC1
H
SC1 GL1
9.00 m
9.00 m
Section 1 - Detail 1 1 : 10
3
I
Level 2 - Second Floor
H
Section 1 - Detail 3 1 : 10
4
4
I
Section 1 - Detail 6 1 : 10
Materials and Components 2
CR1
Level 1 - First Floor
CR2
J
B1 B2 B3 B4 BC1 CA1 CA2 CR1 CR2 CR3 CT1 DH1 DR1
FF1
CR3
17.00 m 40 20
4.30 m 200
K
2
50
SB1 82
L
54
230
B4
K
60
292
135
Technical Element Beam Beam Beam Beam Brick Cladding Clip Angle Clip Angle Concrete Slab Concrete Cast Leveling Concrete Concrete Cast Duct Hanger Roof Drain
Material 3
Materials and Components 2 Dimension
B4
Steel 2000x900mm Steel 900x300mm Steel 600x220mm Level 1 - First Floor Steel 500x200mm 4.30 m Brick 102.5x215x65mm Steel Steel R. Concrete Concrete Concrete Concrete Aluminum PVC
50x150mm 35x80 mm Varies Varies Varies Varies Varies 200mm
Code
Technical Element
Material
GR1 IN1 IN2 OB1 PB1 SB1 SC1 ST1 TR1
Roof Gravel Thermal Insulation Thermal 5.66 m Insulation OSB Plaster Board Steel Box Suspended Ceiling Stiffner Transom Waterproof Membrane
Gravel XPS B3 Rockwool Timber Plaster Steel Gypsum Board Steel Aluminum
WM1
Bituminous
Dimension 100mm 60mm CR1 CR2 Varies 10 mm 10mm 50x50 mm 520mm 430 mm 120x60mm 2mm
1 B3
Main Auditorium
373 m²
792
CC1
L
CR
500
Code
J
200
Level 2 - Second Floor
Prof. Massimiliano Nastri, Tutor Paola Vescovi Architectural Design Studio for Complex Constructions 1, Design in BIM Environment (A.A. 2020-2021) Level 0 - Ground Floor 68
556
IN2
m Executive 0.00 Designer: Designer
WM1
M
54
Technical Analysis:
M
50
Main Auditorium
Title: Technical - Facade Section Details
B1
Technical Drawings:
60
6
3
2
50
6
5
1
104
5
4
Section 1 - Detail 2 1 : 10
J
110
4
2
TR1
Technical Drawings:
60
373 m²
TR1
Technical Element Beam Beam Beam Beam Beam Beam Beam Brick Cladding Beam Clip Angle Brick Cladding Clip Angle Angle Clip Concrete Clip AngleSlab Concrete Slab Cast Concrete Leveling ConcreteConcrete Cast Concrete Cast Leveling Concrete Duct Hanger Concrete Cast Roof Drain Duct Hanger
1 : 10
50
54 60
50 104 110
N
110
Section 1 - Callout 2 1 : 50 1 - Callout 2 Section
1 1
N
373 m²
Code B1 B2 B1 B3 B2 B4 B3 BC1 B4 CA1 BC1 CA2 CA1 CR1 CA2 CR2 CR1 CR3 CR2 CT1 CR3 DH1 CT1 DR1 DH1
119
Dimension 119
Prof. Massimiliano Nastri, Tutor Paola Vescovi Executive Designer: Designer Title: Technical - Facade Section Details Architectural Design Studio for Complex Constructions 1, Design in BIM Environment (A.A. 2020-2021)
M
WM1 IN2
Main Auditorium
FF1 Material
Code
Materials and Components Technical Element Material 2
68
54 135
CC1
Main Auditorium
CR2 CR1 CR3 Technical Element
68
L
B3
500
40 20 292
SB1
40
200 54
230 230 50 60
L
Code
Dimension
5.66 m
500
17.00 m
40 20
K
5.66 m
200
B4 B4
4.30 m
Material
1 : 10
Materials and Components 2
I
2
CR1 CR2 and CR3Components FF1 Materials 2
B3
200
CR2
40
4.30 m
I
Materials and Components 2
Section 1 - Detail 4 1 : 10 1 - Detail 4 Section
2 2
Materials and Components 2 Materials and Components 2 4.30 m Level 1 - First Floor GR1 Roof GravelElement Gravel 100mm B1 Beam 2000x900mm Code Technical Material Dimension Code Technical Material Dimension 4.30 m Element Steel IN1 Thermal Insulation XPS 60mm B2 Beam Steel 900x300mm IN2 Thermal Insulation Gravel Rockwool Varies B3 Beam Steel 600x220mm GR1 Roof Gravel 100mm B1 Beam Steel 2000x900mm OB1 OSB Timber 10 mm B4 Beam Steel 500x200mm IN1 Thermal Insulation XPS 60mm B2 Beam Steel 900x300mm PB1 Plaster Board Plaster 10mm BC1 Brick Cladding Brick 102.5x215x65mm IN2 Thermal Insulation Rockwool Varies B3 Beam Steel 600x220mm 202 70 SB1 Steel Steel 50x50 mm CA1 Clip Angle Steel 50x150mm OB1 OSB Box Timber 10 mm B4 Beam Steel 500x200mm CA1 SC1 Suspended Ceiling Plaster Gypsum Board 520mm CA2 Clip Angle Steel 35x80 mm 70 PB1 Plaster Board 10mm 202 BC1 Brick Cladding Brick 102.5x215x65mm ST1 Stiffner Steel 430 mm CR1 Concrete R. Concrete Varies CA1 SB1 Steel Box Steel 50x50 mm CA1 Clip AngleSlab Steel 50x150mm TR1 Transom 120x60mm CR2 Concrete Concrete Varies SC1 Suspended Ceiling Aluminum Gypsum Board 520mm CA2 Clip AngleCast Steel 35x80 mm Waterproof CR3 Leveling Concrete Concrete Varies ST1 Stiffner Steel 430 mm CR1 Concrete Slab R. Concrete Varies Bituminous 2mm WM1 Membrane 20 80 103 CT1 Concrete Concrete Varies TR1 Transom Aluminum 120x60mm CR2 Concrete Cast Cast Concrete Varies DH1 Duct Hanger Varies 20 80 103 Waterproof CR3 Leveling Concrete Aluminum Concrete Varies Bituminous 2mm WM1 DR1 Roof DrainCast PVC 200mm Membrane 1 Concrete Concrete Varies Level 0CT1 - Ground Floor DH1 Duct Hanger Aluminum Varies B3 m Level 0 - Ground0.00 Floor DR1 Roof Drain PVC 200mm 1 0.00 m Prof. Massimiliano Nastri, Tutor Paola Vescovi B3 Architectural Design Studio for Complex Constructions 1, Design in BIM Environment (A.A. 2020-2021)
2
17.00 m
K
Level 1 - First Floor
CR1
H
1 : 10
2
Level 1 - First Floor Element Code Technical
200
Level 1 - First Floor
4 4
Section 1 - Detail 3 1 : 10
4
3
B4
J
H
Section 1 - Detail 6 1 : 10 1 - Detail 6 Section
Section 1 - Detail 3 1 : 10
4
Section 1 - Detail 1 1 : 10
Main Auditorium
66
I
GL1
SB1
52
SC1
9.00 m Level 2 - Second Floor
G
SC1
GL1
G
52
52
m Level 2 - Second9.00 Floor
TR1
B1
101
SC1
Level 2 - Second Floor
101
TR1
52
SC1 52
H
Level 2 - Second Floor
TR1
52
52
52
H
F
52
G
DH1
253
450
52
13.00 m
AD1
450
389
SC1
450
DH1
52
G
389
F
DH1
DH1 1018
Level 3 - Third Floor
82
D
AD1
13.00 m
1000
13.00 m
Main Auditorium
21.00 m D
E
13.00 m Level 3 - Third Floor
F
60
m Level 21.00 5 - Roof
ST1 CA1
Level 3 - Third Floor
Level 3 - Third Floor
CR2
CA1
300
280 280
2000
F
SB1
82
ST1
21.00 m
100 40
WM1
CR2
?
Level 5 - Roof
21.00 m
21.00 m
578
83
17.00 m
6060
CR3
GR1 WM1
?
C
21.00 m
60
83
50
SB1 ST1
373 m²
C
420
WM1
2000
E
ST1 ST1
373 m²
30
OB1
60 40
IN1
GR1
E 50
CR1
300
70
21.00 m 143
ST1
3
420
280
820
Level 4 - Fourth Floor 17.00 m
B
PB1
100
70
CR3
WM1
300
820
100
143
3
30
100
17.00 m Level 4 - Fourth Floor
CR1
21.00 m
9.00 m
420
GR1 WM1
IN1
CR1 B4 CR3 IN1 CA2 OB1
Level 4 - Fourth Floor IN1
GR1
60 100
53
300
D
6060
53
420
D 410
17.00 m
420
420
420
882
410
PB1
B
PB1
SB1
81
DR1
CC1
Level 4 - Fourth Floor
IN2
1892
21.00 m
83
47
C 50
SB1
47
21.00 m Level 5 - Roof
IN2
21.90 m
66
47 66
Level 5 - Roof
BC1
SB1
BC1
21.00 m
66
21.90 m
A
SB1
66
B3
21.90 m 21.90 m
B4
14
300
4
2
2
52
5
1
8
52
1 A5
4
7
300
A5
6
40
1
5
52
4
373 m²
N
1
Section 1 - Callout 1 1 : 50
1
2 2
3
4
5
6
Section 1 - Detail 2 1 : 10
7
1
N 8
14
9
Section 1 - Callout 2 1 : 50
Section 1 - Detail 5 Day: 05/28/21 3 1 : 10
B3
10 1
2
3
4
5
6
7
8
9
10
PoliMi Startup Hub
PoliMi Startup Hub Academic Work / 2020 Team: Ilhan Ertan, Simay Çag, Vigan Rexha, Zhiwei Silvio Zhu Studio: Giacomo Boffi, Gian Luca Brunetti, Marco Scaioni
Situated in the Leonardo Campus of Politecnico di Milano, a Startup Hub is designed in the light of university’s objectives, for students and graduates to provide a common ground to communicate and develop their innovative ideas. The site is an open area with lots of established trees,benches and table tennis and used mainly by students for leasure activties. In order to preserve both the functional and natural characteristics, the building is placed and shaped with respect to the tree edge and leave the ground to publlic as much as possible. The primary objective of the design is to offer maximum amount of flexibility in terms of construction and function while preserving and encouraging outdoor activities. The building is conceived as a prototype of steel-frame structure that allows prefabricated modules to be inserted and removed depending on the need of its users. Rounded corneres and glass facade applied for both practical and structural reasons. The prefabricated modules have their own structural cage to allow future modifications. The executive details are produced, thermal performance, materials and structural components are carefuly detailed in 1:5 scale.
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PoliMi Startup Hub
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PoliMi Startup Hub
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PoliMi Startup Hub
ALUMINUM SHEET FOR FLASHING WATERPROOFING: BITUMINOUS SHEATH ALUMINUM CORRUGATED SHEET INSULATION IN MINERAL WOOL 30 - 50 OSB PANEL INSULATION XPS 40 LIGHT STEEL C.120x50 STEEL 150 x 90 PFC INSULATION IN MINERAL WOOL 80 OSB PANEL LIGHT STEEL C.40x50 PLASTERBOARD PANEL
FIBER-REINFORCED CONCRETE CLADDING FIXED ELEMENT STEEL OSB PANEL INSULATION XPS 40 LIGHT STEEL C.120x50 STEEL 150 x 90 PFC OSB PANEL LIGHT STEEL C.40x50 PLASTERBOARD PANEL
INTERNAL TRANSVERSAL SECTION 1:5
EXTERNAL TRANSVERSAL SECTION 1:5
PLASTERBOARD PANEL SOLID WOOD PLANKS FLOORING LIGHT STEEL C.40x50 INSULATION XPS 30 OSB PANEL LIGHT STEEL C.120x50 STEEL 150 x 90 PFC CONNECT: INSULATION AND PROFILE INSULATION IN MINERAL WOOL 120 OSB PANEL CLADDING FIXED ELEMENT STEEL FIBER-REINFORCED CONCRETE
PLASTERBOARD PANEL SOLID WOOD PLANKS FLOORING LIGHT STEEL C.40x50 INSULATION XPS 30 OSB PANEL LIGHT STEEL C.120x50 STEEL 150 x 90 PFC INSULATION IN MINERAL WOOL 120 OSB PANEL INSULATION IN MINERAL WOOL 40 WATERPROOFING: BITUMINOUS SHEATH CLADDING FIXED ELEMENT STEEL CLADDING: FIBER-REINFORCED CONCRETE
system
MODULE CONSTRUCTION PROCESS
MAIN STRUCTURE Steel Frame Secondary Light Steel Wire Bracing Rod
INSULATION Thermal + Acoustic Layer External Thermal Layer Thermal Breaks
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COVER PANEL Internal Plasterboard External OBS Wooden Flooring Light Profile
PoliMi Startup Hub ALUMINUM SHEET FOR FLASHING WATERPROOFING: BITUMINOUS SHEATH ALUMINUM CORRUGATED SHEET INSULATION IN MINERAL WOOL 30 - 50 OSB PANEL LIGHT STEEL C.40x50 INSULATION XPS 40 STEEL 150 x 90 PFC INSULATION IN MINERAL WOOL 30 INSULATION IN MINERAL WOOL 80 LIGHT STEEL C.80x50 OSB PANEL THEARMAL-BREAK INSULASIONA LIGHT STEEL C.40x50 PLASTERBOARD PANEL ALLUMINIUM WINDOW
FIBER-REINFORCED CONCRETE CLADDING FIXED ELEMENT STEEL OSB PANEL LIGHT STEEL C.40x50 INSULATION XPS 40 STEEL 150 x 90 PFC LIGHT STEEL C.80x50 OSB PANEL LIGHT STEEL C.40x50 PLASTERBOARD PANEL TRASPARENT WALL
LONGITUDINAL SECTION 1:5
ALLUMINIUM WINDOW SOLID WOOD PLANKS FLOORING INSULATION XPS 30 OSB PANEL LIGHT STEEL C.120x50 INSULATION IN MINERAL WOOL 30 STEEL 150 x 90 PFC INSULATION IN MINERAL WOOL 120 OSB PANEL INSULATION IN MINERAL WOOL 40 WATERPROOFING: BITUMINOUS SHEATH CLADDING FIXED ELEMENT STEEL FIBER-REINFORCED CONCRETE ALUMINUM SHEET FOR FLASHING
MISCALENOUS Waterproof Membrane Fastening Joints Windows
TRASPARENT DOOR SOLID WOOD PLANKS FLOORING THERMALBREAK INSULATION AND PROFILE INSULATION XPS 30 OSB PANEL LIGHT STEEL C.120x50 STEEL 150 x 90 PFC CONNECT POINT: INSULATION AND PROFILE OSB PANEL CLADDING FIXED ELEMENT STEEL FIBER-REINFORCED CONCRETE
Connection with Cladding
CLADDING Lightweight Concrete Panels Flashing
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INTEGRATION Curtain Wall Air Ventilation Slab and Beam Connections
Free Speech Platform
Free Speech Platform Academic Work / 2019 Instructors: Can Gündüz, Erdem Erten, Fahmi Dogan
Free speech is a disputatious concept in many regions of today’s world however it possesses a huge potential to shift and dominate mainstream social dynamics. An architectural manifestation of such freedom independent from the rules, laws, traditions and even culture may suggest a new kind of societal state. In order to increase the architectural inputs and outputs, this hypothetical societal stage should be free from the rules regardless of the potential chaos and disorder. A societal evolution in a parrhesian way. Situated on the southern coast of the Dardanelles strait, Çanakkale is a relatively small city of Turkey. It possesses a great economical value with its fertile agricultural lands, rooted history of wars and civilizations, precious mines, and mineral resources, however capitalist economy orients capital owners to destructive mining operations causing irreversible damages to nature. Agricultural production suffers most so the local people organize protests against these facilities. Investigating the reasons why these protests don’t take place in the city of Çanakkale, raised more questions because similarly, the uncontrolled urban sprawl threatens the agricultural lands on the periphery of the city while causing many other problems within the city as well. The behaviour of denial among the society is embraced as the major design issue to develop an architectural program designed in response to the future displaying the direct consequences of the region-wide research and choose the location. In these circumstances an extensive urban strategy is required before the implementation of an architectural intervention.
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Free Speech Platform
SHADING ROOFTOP ACCESS
ROOF LANDSCAPE
ROOFTOP ACCESS
SPEECH PLATFORM
MAIN CORE
DIGITAL RE-DEMONSTRATION
KNOWLEDGE HUB EXCHANGE AREA
KNOWLEDGE HUB
PUBLIC DISPLAY
LEARNING CENTER
EXCHANGE BELT
INNER GARDEN UNDERGROUND PARKING
COLLABORATIVE PRODUCTION
AUDITORIUM
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Free Speech Platform
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ILHAN ERTAN
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